Journal ArticleDOI
Coordinating heterogeneous teams of robots using temporal symbolic planning
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The results show that this approach outperforms ad-hoc extensions of state-of-the-art cost-based coordination methods and that the approach is able to efficiently coordinate teams of heterogeneous robots and to consider symbolic actions.Abstract:
The efficient coordination of a team of heterogeneous robots is an important requirement for exploration, rescue, and disaster recovery missions. In this paper, we present a novel approach to target assignment for heterogeneous teams of robots. It goes beyond existing target assignment algorithms in that it explicitly takes symbolic actions into account. Such actions include the deployment and retrieval of other robots or manipulation tasks. Our method integrates a temporal planning approach with a traditional cost-based planner. The proposed approach was implemented and evaluated in two distinct settings. First, we coordinated teams of marsupial robots. Such robots are able to deploy and pickup smaller robots. Second, we simulated a disaster scenario where the task is to clear blockades and reach certain critical locations in the environment. A similar setting was also investigated using a team of real robots. The results show that our approach outperforms ad-hoc extensions of state-of-the-art cost-based coordination methods and that the approach is able to efficiently coordinate teams of heterogeneous robots and to consider symbolic actions.read more
Citations
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Journal ArticleDOI
Decentralized planning and control for UAV–UGV cooperative teams
TL;DR: An overall system control framework that includes high-accuracy motion planning for each individual robot and ad-hoc decentralized mission planning for complex missions is proposed.
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Can UAV and UGV be best buddies? Towards heterogeneous aerial-ground cooperative robot system for complex aerial manipulation tasks
TL;DR: The efforts to build a heterogeneous robotic system capable of executing complex disaster response and recovery tasks are presented, using TÆMS framework in order to specify interrelationships between mission subtasks and develop an effective scheduling and coordination mechanism inspired by Generalized Partial Global Planning.
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Team assembling problem for asynchronous heterogeneous mobile robots
TL;DR: It is shown that G C D ( a 1, a 2, … , a k ) = 1 is a necessary and sufficient condition for the robots to have an algorithm to solve the team assembling problem in a self-stabilizing manner, i.e., starting from any arbitrary initial configuration, the robots form teams according to the specification.
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Merging grid maps of different resolutions by scaling registration
TL;DR: The trimmed and scaling iterative closest point (TsICP) algorithm is proposed to solve the problem of merging grid maps that have different resolutions and superior performance with respect to robustness and accuracy is illustrated.
Proceedings Article
A framework for task planning in heterogeneous multi robot systems based on robot capabilities
TL;DR: A platform-independent model of robot capabilities is proposed which is used as a planning domain and existing planning techniques are extended to support two requirements: generating new objects during planning; and, required concurrency of actions due to data flow which can be cyclic.
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